On 10/28/2014 05:42 PM, Mauro Carvalho Chehab wrote: > Hi Shuah, > > I'm understanding that you're collecting comments to write a RFC with the > needs by the media token, right? > > I'm sending you my contributions to such text. See enclosed. > > I suggest to change the subject and submit this on a separate thread, after > we finish the review of such document. Anyway, I'm changing the subject > of this Thread to reflect that. > > Regards, > Mauro > > Em Tue, 28 Oct 2014 15:15:43 -0600 > Shuah Khan <shua...@osg.samsung.com> escreveu: > >> On 10/27/2014 06:52 AM, Mauro Carvalho Chehab wrote: >>> Em Sun, 26 Oct 2014 09:27:40 +0100 >>> Takashi Iwai <ti...@suse.de> escreveu: >>> >> >>> >>> Hmm... this is actually more complex than that. V4L2 driver doesn't >>> know if ALSA is streaming or not, or even if ALSA device node is opened >>> while he is touching at the hardware configuration or changing the >>> state. I mean: it is not an error to set the hardware. The error only >>> happens if ALSA and V4L2 tries to do it at the same time on an incompatible >>> way. >>> >>> Also, this won't work for DVB, as on DVB this is really an exclusive >>> lock that would prevent both ALSA and V4L2 drivers to stream while in >>> DVB mode. >>> >>> Implementing it with a lock seems to be the best approach, at least on >>> my eyes. >>> >>>> That said, we should go back and start discussing the design goal at >>>> first. >>> >>> Surely. >> >> This is long, however, hoping it will describe the problem and >> solution that is being pursued in detail: > > Before starting with the description, this is the simplified diagram of > a media device (without IR, eeprom and other beasts): > > > +-----------------------------------------------------------------------------------------+ > | > | > | +----------------+ > +------------------+-------+----------------+ | > | | demod_video | <-- | analog | tuner | > digital | | > | +----------------+ > +------------------+-------+----------------+ | > | | | | > | > | | | | > | > v v v v > | > +--------------+-----+-----------------+ +------------------+ > +---------------+ | > | dvb | DMA | analog | | demod_audio | | > digital_demux | -+ > +--------------+-----+-----------------+ +------------------+ > +---------------+ > | | | > | | | > v v v > +--------------+ +----------------+ +------------------+ > | devnode dvr0 | | devnode video0 | | audio DMA | > +--------------+ +----------------+ +------------------+ > | > | > v > +------------------+ > | devnode pcmC1D0c | > +------------------+ > > There are two components that are shared there between analog and digital: > the tuner (where the signal is captured) and the DMA engine used to stream > analog and Digital TV (dvb). > > PS.: the diagram is over-simplified, as the tuner is just one of the possible > inputs for the analog part of the device. Other possible inputs are S-Video, > composite, HDMI, etc. > > Sometimes, the audio DMA is also shared, e. g. just one stream comes from > the hardware. It is up to the driver to split audio and video and send > them to the V4L2 and ALSA APIs. This is the case of tm6000 driver. > > Those shared components can be used either at analog or digital mode, > but not at the same time. > > Also, programming the V4L2 analog and audio DMA and demods should be done > via V4L2 API, as this API allows the selection of the proper audio/video > input (almost all devices have multiple analog inputs). > > Please notice that, if the tuner is on digital mode, the entire analog > path is disabled, including ALSA output. > > If the tuner is on analog mode, both ALSA and V4L2 can work at the > same time. However, during the period where the tuner firmware is > loaded, and during the DMA configuration and input selection time, > neither ALSA or V4L2 can stream. Such configuration/firmware load > is commanded via V4L2 API, as ALSA knows nothing about tuner or > input selection. > >> >> At a higher level the problem description is: >> >> There are 3 different device files that get created to control >> tuner and audio functions on a media device. 3 drivers (dvb, >> v4l2, alsa), and 3 core apis (dvb-core, v4l-core, audio) that >> control the tuner and audio hardware and provide user api to >> these 3 device files. > > > There's actually a 4th component for some drivers: the mceusb driver, > that handles remote controllers. The mceusb handles the Microsoft > Media Center Remote Control protocol. It supports standalone remote > controller devices, but it also supports a few USB devices that use > a separate interface for IR. > > There are currently some issues on cx231xx and mceusb, as both drivers > can be used at the same time, but, when cx231xx sends certain commands, > the mceusb IR polls fail. This is out of the scope of the audio lock, > but it also needs to be addressed some day. > >> User applications, drivers and the core have no knowledge of each >> other. The only thing that is common across all these drivers is >> the parent device for the main usb device which is controlled by >> the main usb driver. > > I would add that there are user applications that can handle all > 3 APIs like MythTV. But, at least MythTV doesn't know how to associate > ALSA, V4L2 and DVB devnodes that belong to the same device. > > I mean: if MythTV finds, let's say, 3 V4L2 nodes, 3 ALSA nodes, > and 1 DVB node, it doesn't know what device is associated with the > DVB node. > > Almost all applications that are aware of V4L2 API are also aware of > ALSA API and may associate audio and video, as there is a way to > associate it using sysfs. However, several apps don't use it. > >> The premise for the main design idea in this series is creating >> a common construct at the parent device structure that is visible >> to all drivers to act as a master access control (lock). Let's call >> this media token object with two sub-tokens one for tuner and another >> for audio. >> >> Each of the apis evolved separately, hence have their own backwards >> compatibility to maintain. Starting with v4l2: >> >> v4l2 case: >> Multiple v4l2 applications are allowed to open /dev/video0 in >> read/write mode with no restrictions as long as the tuner is in >> analog mode. v4l2 core handles conflicting requests between v4l2 >> applications. > >> It doesn't have the knowledge that the tuner is in > > To be clear: "It" here refers to v4l2 core. The drivers may have this > knowledge as, except for one case (bttv driver), they share some data. > >> use by a dvb and/or audio is in use. As soon as a v4l2 application >> starts, digital stream glitches and audio glitches. >> >> dvb case: >> Multiple dvb applications can open the dvb device in read only mode. > > There's no issue with ALSA on R/O mode, as the application is not > allowed to modify anything at the stream. This is used only to monitor > an already opened device in R/W mode. > >> As soon an application open the device read/write mode a separate >> kthread is kicked off to handle the request. Only one application >> can open the device in read/write mode. > >> Similar to v4l2 case, > > s/v4l2/v4l2 core/ > >> dvb-core doesn't have any knowledge that the tuner is in use by >> v4l2 and/or audio is in use. As soon as a dvb application starts v4l2 >> video glitches and audio glitches. >> >> audio case: >> Same scenario is applicable to audio application. When a v4l2 or dvb >> application starts, audio application gets impacted. >> >> Problems to address: >> >> dvb owns tuner and audio: another dvb, v4l2 app and audio app should >> detect tuner/audio busy right away and exit. >> >> v4l2 owns tuner and audio: another dvb and audio app should detect >> tuner/audio busy right away and exit. > > Actually, no: audio should not exit. The V4L2 should only hold the > token for the required time to initialize the device and/or load the > firmware. ALSA applications should wait for V4L2 to finish > programming at audio, and should keep working after that. > >> v4l2 app can continue to use it until it >> tries to change the tuner/audio state. >> >> >> audio owns audio: dvb and v4l2 apps should detect audio busy and exit. > > Actually no. It is, instead: > > audio owns audio: dvb apps should detect audio busy and exit. > V4L2 apps should work. However, when certain V4L2 ioctls are issued, > the audio device driver should not send any command to the hardware. > After such commands, the audio mixers may change. > > We need two separate tokens because of that: the behavior is different. > > This is basically why we need two separate tokens, and because we cannot > implement locking at ALSA open/close. > >> >> Special cases: >> >> dvb apps. access tuner and audio in exclusive mode. i.e only one dvb app. >> at a time is allowed to open the device read/write mode. > > To be clearer: dvb apps won't use the audio node, but audio should be blocked, > as the devices can't use audio while in DVB mode. > >> As dvb apps. >> create threads to handle audio and video, > > No. DVB apps don't handle audio/video. It receives data as MPEG-TS, > using a separate device node. Yet, the same DMA engine that provides > video (and, sometimes audio) is used by the DVB devnode. > >> all threads in that group >> should be allowed by the higher level construct to access the tuner and >> audio. dvb application will have to hold tuner and audio tokens so v4l2 >> and audio apps. know they are in use. >> >> audio apps. access audio in exclusive mode. i.e only one audio app. at >> a time is allowed to open the device in read/write mode. Audio apps. >> create threads and thread closes and re-opens the audio device. Threads >> can do this and hence something that higher level construct has to allow. >> audio app. has to hold audio token so dvb and v4l2 know that it is in use. >> (Note: I am not sure if I have the audio scenario right) >> >> v4l2 apps. access tuner and audio in shared v4l2 mode. i.e several v4l2 >> processes and threads could use tuner and audio at the same time. The >> higher level construct has to allow multiple v4l2 apps. to access and >> disallow dvb and audio apps. access when they are in use by v4l2. > > Actually, V4L2 core handles concurrency. There's just one file handler > with full control to start/stop stream at V4L2 side. > >> >> Adding to this, both dvb and v4l2 open audio device and make snd pcm >> capture callbacks. > > Huh? DVB won't need to touch at PCM capture callbacks. It should just > avoid audio PCM capture to stream while in DVB mode. > >> There is no way to tell if dvb or v4l2 or audio >> app is the one that is making this request. > >> dvb app would like audio >> in exclusive mode allowing only one process and its threads to access >> it. > > No. It just wants to disable the part of the hardware that can now > be powered off.
Hmm. I am seeing some snd_pcm_lib_ioctls coming from dvb application. >From what you are saying, these could be for poweroff. > >> v4l2 on the other hand would like audio in shared state accessible >> to all v4l2 processes. > >> If dvb-core and v4l2-core get tuner and audio >> tokens at the same time, the window for having tuner token and not >> getting audio token go down. > > No. It should not be allowed that both dvb-core and v4l2-core to get > the tokens at the same time. This is an exclusive lock. I should have explained this better. What I meant was that dvb-core when it gets the tuner, it should also obtain audio right away. v4l2-core when it gets the tuner, it should get the audio at the same time. When dvb-core has the tuner, v4l2 shouldn't get it and vice versa. > >> In dvb case when dvb device is opened in read/write mode, and v4l2 >> case when an app. tries to change the status. Audio callbacks have to >> detect if audio is busy, if not which mode to request the token in. > > Huh? ok again bad explaining on my part. Let me try again. When dvb-core has the audio locked, audio application should detect the condition and take appropriate action. When v4l2-core has audio locked, audio application should detect the condition and take appropriate action. > >> For dvb and audio app. cases, the audio token should be requested in >> exclusive mode and in v4l2 case shared mode. The logic for requesting >> audio token will have to be try to get in exclusive mode, if fails, >> try to get in shared mode, and if that fails give up. > > Huh? Consider this flow: step 1: dvb-core locks tuner and audio. step 2: audio ioctl is initiated (from the application) step 3: If dvb-core has the audio locked, how does alsa know if it can proceed with the ioctl request or not? > >> >> Current status: >> Combining patch v1 and patch v2 designs by allowing shared mode token >> hold for v4l2, and deciding on where to hold audio token from >> alsa driver will solve the above conflict scenarios. That said, the >> question is "is this the right approach?" or are there other ways to >> solve the problem. One thing is clear, we need some common higher level >> construct for all the device drivers and dvb, v4l2, and audio ioctls, >> callbacks etc, to detect the hardware is in use. > > I think that the current status is that we need to finish the spec > first. Then check if the patches are doing what's above. > > It seems that we agree to not agree at the requirements so far ;) I would say it is more of not having the same understanding of the requirements as opposed to wanting to agree to disagree. Right I agree that developing a clear RFC spec will help us all be on the same page while I continue to find solution for this problem, and continuing work towards patch v3. I will compile what we discussed so far in RFC and send it out for review in a day or two. I will include your diagrams and the scenarios I put together with your corrections in it. -- Shuah -- Shuah Khan Sr. Linux Kernel Developer Samsung Research America (Silicon Valley) shua...@osg.samsung.com | (970) 217-8978 -- To unsubscribe from this list: send the line "unsubscribe linux-media" in the body of a message to majord...@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html